JP6570867B2 - Fuse element terminal and electrical junction box - Google Patents

Description

  The present invention relates to a fuse element terminal and an electrical junction box.

  As a substrate on which a conventional fuse element terminal applied to an electric junction box or the like mounted on a vehicle or the like is provided, for example, Patent Document 1 discloses that a printed circuit board has conductivity and a current or temperature has a predetermined value. A printed circuit board having a fuse function is disclosed, in which a fuse film is formed that cuts off a current and opens a circuit when the current exceeds the value.

Japanese Patent Laid-Open No. 10-247449

  By the way, the printed circuit board having the fuse function described in Patent Document 1 described above has, for example, a fuse element part such as a fuse film directly mounted on the printed circuit board. There is room for further improvement in terms of improving serviceability, such as a case where the printed circuit board itself cannot be used.

  This invention is made | formed in view of said situation, Comprising: It aims at providing the fuse element terminal which can improve serviceability, and an electrical junction box.

In order to achieve the above object, a fuse element terminal according to the present invention is mounted on a first mounting end portion mounted on a first wiring constituting a circuit of a substrate and a second wiring constituting a circuit of the substrate. One of the second mounting end portion, a fuse element portion having a fusing portion for electrically connecting the first mounting end portion and the second mounting end portion, and an alternative fusing component different from the fuse element portion A terminal can be connected, and the first alternative terminal part formed integrally with the first mounting end part and the other terminal of the alternative fusing part can be connected and formed integrally with the second mounting end part A second alternative terminal portion, and the fusing portion extends between the first mounting end portion and the second mounting end portion so as to extend from the first mounting end portion to the second mounting end portion. The first mounting end and the second mounting end are orthogonal to the end There characterized in that it is formed by meandering corrugated in a plan view seen along a direction extending.

  In the fuse element terminal, the first substitute terminal portion and the second substitute terminal portion may have a forked portion that is formed in a forked shape and supports a terminal of the substitute fusing component.

In order to achieve the above object, an electrical junction box according to the present invention is mounted on a first mounting end mounted on a first wiring constituting a circuit on a substrate and a second wiring constituting a circuit on the substrate. One of the second mounting end portion, a fuse element portion having a fusing portion for electrically connecting the first mounting end portion and the second mounting end portion, and an alternative fusing component different from the fuse element portion A terminal can be connected, and the first alternative terminal part formed integrally with the first mounting end part and the other terminal of the alternative fusing part can be connected and formed integrally with the second mounting end part A fuse element terminal configured to include a second alternative terminal portion, and a housing that accommodates the fuse element terminal , wherein the fusing portion includes the first mounting end portion and the second mounting end portion. And extending across The first mounting end and the second mounting end are orthogonal to each other, and are formed by meandering in a wavy shape in a plan view along the direction in which the first mounting end and the second mounting end extend. characterized in that that.

  In the fuse element terminal and the electrical junction box according to the present invention, the fuse element portion having a fusing portion is directly attached to the first wiring and the second wiring of the substrate via the first mounting end and the second mounting end. Therefore, the number of component parts can be suppressed and the size can be reduced. In addition, the fuse element terminal and the electrical connection box have the first alternative terminal portion and the second mounting end formed integrally with the first mounting end portion even if the fusing portion of the fuse element portion is blown. Since the alternative fusing component different from the fuse element portion can be connected across the second alternative terminal portion formed integrally with the portion, the substrate can be brought into a usable state again. As a result, the fuse element terminal and the electrical junction box have the effect that serviceability can be improved.

FIG. 1 is an exploded perspective view illustrating a schematic configuration of a fuse element terminal according to an embodiment. FIG. 2 is a perspective view illustrating a schematic configuration of the fuse element terminal according to the embodiment. FIG. 3 is an A1 arrow view shown in FIG. 4 is a view taken in the direction of arrow A2 shown in FIG. FIG. 5 is an A3 arrow view shown in FIG. FIG. 6 is a perspective view illustrating a schematic configuration of a fuse element terminal according to the first modification. FIG. 7 is a B1 arrow view shown in FIG. FIG. 8 is a perspective view illustrating a schematic configuration of the fuse element terminal according to the second modification. 9 is a C1 arrow view shown in FIG.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. In addition, this invention is not limited by this embodiment. In addition, constituent elements in the following embodiments include those that can be easily replaced by those skilled in the art or those that are substantially the same.

[Embodiment]
FIG. 1 is an exploded perspective view illustrating a schematic configuration of a fuse element terminal according to an embodiment. FIG. 2 is a perspective view illustrating a schematic configuration of the fuse element terminal according to the embodiment. FIG. 3 is an A1 arrow view (front view) shown in FIG. 4 is an A2 arrow view (side view) shown in FIG. FIG. 5 is an A3 arrow view (plan view) shown in FIG. In FIG. 1, for the sake of clarity, the housing and the electric wire are illustrated by a two-dot chain line and a part thereof is simplified.

  As shown in FIG. 1, the fuse element terminal 1 according to the present embodiment constitutes an electronic component module that is detachably assembled to an electrical connection box 100 mounted on a vehicle such as an automobile. Here, the electric connection box 100 is mounted on a vehicle such as an automobile, and is incorporated in a wire harness WH, and includes a connector, a fuse, a relay, a capacitor, a branching unit, an electronic control unit, and the like that constitute a connection processing part such as an electric wire. The electrical components are collected and accommodated inside. The electrical connection box 100 is installed, for example, in an engine room of a vehicle or a lower part of a vehicle body, and is connected between a power source such as a battery and various electronic devices mounted in the vehicle. The electrical junction box 100 distributes the electric power supplied from the power source to various electronic devices in the vehicle. The electrical connection box 100 may be called a junction box, a fuse box, a relay box, or the like. In the present embodiment, these are collectively called an electrical connection box. In addition, each direction used in the following description will be described as a direction in a state where the electrical junction box 100 is mounted on a vehicle unless otherwise specified.

  Here, the wire harness WH is, for example, a bundle of a plurality of electric wires W used for power supply and signal communication for connection between devices mounted on a vehicle, and is a collective part. W is connected to each device at a time. The wire harness WH includes a plurality of electric wires W and an electric junction box 100 electrically connected to the electric wires W. The electric wire W includes, for example, a conductor portion (core wire) obtained by twisting a plurality of conductive metal strands and an insulating covering portion that covers the outside of the conductor portion. The wire harness WH bundles and aggregates a plurality of electric wires W, and the electrical connection box 100 is electrically connected to the ends of the bundled wires W via a connector or the like as a connection portion. In addition to this, the wire harness WH may further include a grommet, a protector, a fixture, and the like.

  The electrical connection box 100 includes a fuse element terminal 1 as one of electronic components connected to the electric wire W, and a casing 101 that houses a plurality of electronic components including the fuse element terminal 1. The casing 101 is made of an insulating synthetic resin, and an accommodation space for accommodating electronic components including the fuse element terminal 1 is formed therein. The housing 101 may be configured as a divided structure including an accommodation main body member, a bottom member, a lid member, and the like. The fuse element terminal 1 is assembled in the housing space of the housing 101. In addition to the fuse element terminal 1, for example, a connector, a fuse, a relay, a capacitor, a branching unit, an electronic control unit, and the like as a plurality of electronic components housed in the housing 101 and electrically connected to the electric wire W A unitized electronic component unit or the like may be included. Hereinafter, with reference to each figure, each structure of the fuse element terminal 1 is demonstrated concretely.

  As shown in FIGS. 1, 2, 3, 4, and 5, the fuse element terminal 1 is mounted on a substrate 200, and includes a fuse element portion 2, a first alternative terminal portion 3, 2 alternative terminal portion 4.

  Here, the board 200 on which the fuse element terminal 1 is mounted is a so-called printed circuit board (PCB). The substrate 200 has a wiring pattern (print pattern) made of a conductive material such as copper on the surface (mounting surface) of an insulating substrate 201 made of an insulating material such as epoxy resin, glass epoxy resin, paper epoxy resin, or ceramic. ) 202 is printed. In the substrate 200, a through hole 203 is formed in a portion of the insulating substrate 201 where the wiring pattern 202 is formed. The through hole 203 is a hole for inserting a lead wire or a terminal portion of an electronic component and electrically connecting to the wiring pattern 202, and penetrates the insulating substrate 201 and the wiring pattern 202 in the thickness direction.

  The fuse element portion 2 includes a first mounting end portion 11, a second mounting end portion 12, and a fusing portion 13. The first mounting end portion 11 is a portion that is formed in a rod shape and is mounted on the first wiring 204. The second mounting end 12 is a portion that is formed in a rod shape and is mounted on a second wiring 205 different from the first wiring 204. Each of the first wiring 204 and the second wiring 205 constitutes a part of the wiring pattern 202 constituting the circuit of the substrate 200. The fusing part 13 is a part that electrically connects the first mounting end 11 and the second mounting end 12, that is, a fuse element that electrically connects the first mounting end 11 and the second mounting end 12. is there. The fusing part 13 is a so-called overcurrent protection element, and when an overcurrent flows between the first mounting end part 11 and the second mounting end part 12, in other words, the first wiring 204 and the second wiring 205 It is a fusible body that melts when an overcurrent flows between them. The fusing part 13 has a lower melting point than the first mounting end part 11 and the second mounting end part 12, and is melted by heat generated by overcurrent, so that the fusing part 13 is between the first mounting end part 11 and the second mounting end part 12. Shut off the power of the. The fusing part 13 extends between the first mounting end part 11 and the second mounting end part 12 so as to be substantially orthogonal to the first mounting end part 11 and the second mounting end part 12 and in plan view ( 5) and meandering in a substantially wave shape. Here, the overcurrent is, for example, a current exceeding a preset rating. That is, the fusing part 13 is blown when a current exceeding a preset rating flows. The rated current of the fusing part 13 is determined according to the current of the circuit to be protected. In the fuse element portion 2 of the present embodiment, the first mounting end portion 11, the second mounting end portion 12, and the fusing portion 13 are integrally formed of a conductive metal. The entire fuse element terminal 1 is formed by, for example, press-bending a conductive metal plate in accordance with the shapes of the first mounting end 11, the second mounting end 12, and the fusing part 13. The

  The fuse element portion 2 has the first mounting end 11 inserted into the through hole 203 formed in the first wiring 204 and is electrically connected and fixed to the first wiring 204 via the solder 206 or the like. The end portion 12 is inserted into the through hole 203 formed in the second wiring 205 and is electrically connected and fixed to the second wiring 205 via the solder 206 or the like, so that the surface 12 (mounting surface) of the substrate 200 is fixed. Implemented. That is, in the fuse element portion 2, the fusing portion 13, which is a fuse element, is terminalized by the first mounting end portion 11 and the second mounting end portion 12, and the first mounting end portion 11 and the second mounting end portion 12 are soldered 206 or the like. By directly attaching to the first wiring 204 and the second wiring 205 of the substrate 200 via the fusing portion, the fusing part 13 is interposed between the first wiring 204 and the second wiring 205 to connect them.

  The first alternative terminal portion 3 and the second alternative terminal portion 4 can be connected to an alternative fusing component different from the fuse element portion 2, here, the alternative fuse 300, and are formed of a conductive metal. Here, the alternative fuse 300 is, for example, a fuse element in which a fuse part 302a as a fuse element and a part of a pair of terminals 302b and 302c electrically connected to the fuse part 302a are formed in a housing 301. A general-purpose product in which the unit 302 is accommodated can be used. The first alternative terminal portion 3 can be connected to one terminal 302 b of the alternative fuse 300, and the second alternative terminal portion 4 can be connected to the other terminal 302 c of the alternative fuse 300. The first alternative terminal portion 3 and the second alternative terminal portion 4 are both formed in a bifurcated shape, and are formed as so-called tuning fork terminals having bifurcated portions 31 and 41 that support the terminals 302b and 302c of the alternative fuse 300. . The bifurcated portions 31 and 41 have a pair of extending portions 31a and 41a each formed in a bar shape, and slits 31b and 41b interposed between the pair of extending portions 31a and 41a. The extending portions 31a and 41a extend in the same direction as the direction in which the first mounting end portion 11 and the second mounting end portion 12 formed in a bar shape extend, and at the base end portions 31c and 41c. It is united. In other words, the bifurcated portions 31 and 41 have a pair of extending portions 31a and 41a projecting from the base end portions 31c and 41c into bifurcated portions, and a gap between the pair of extending portions 31a and 41a is formed as slits 31b and 41b. Is done. In the first alternative terminal portion 3 and the second alternative terminal portion 4, the terminals 302b and 302c of the alternative fuse 300 are inserted into the slits 31b and 41b, and the terminals 302b and 302c are connected by the pair of extending portions 31a and 41a. By sandwiching and supporting, the terminals 302b and 302c of the alternative fuse 300 are electrically connected.

  The first alternative terminal portion 3 of this embodiment is formed integrally with the first mounting end portion 11, and the second alternative terminal portion 4 is formed integrally with the second mounting end portion 12. That is, the fuse element terminal 1 of the present embodiment includes the first mounting end portion 11, the second mounting end portion 12, the fusing portion 13, the first alternative terminal portion 3, and the second alternative terminal portion 4 of the fuse element portion 2. And are all formed integrally. In other words, in the fuse element terminal 1, the first mounting end portion 11 and the first alternative terminal portion 3 are integrally formed, the second mounting end portion 12 and the second alternative terminal portion 4 are integrally formed, The fusing part 13 connects the first alternative terminal part 3 and the second alternative terminal part 4, and the first mounting end part 11 and the second mounting end part 12 are the fuse element part 2, the first alternative terminal part 3, 2 Used in combination with the alternative terminal portion 4. The fuse element terminal 1 of the present embodiment includes, for example, a first substitute terminal portion 3 and a second substitute by adding a conductive metal plate to the first mounting end portion 11, the second mounting end portion 12, and the fusing portion 13. The whole is formed by press bending or the like according to the shape of the terminal portion 4.

  Here, the first alternative terminal portion 3 is formed integrally with the first mounting end portion 11 with the first mounting end portion 11 positioned on the base end portion 31c side of the bifurcated portion 31, and sandwiches the base end portion 31c. Thus, the first mounting end portion 11 extends on one side, and the pair of extending portions 31a of the bifurcated portion 31 extends on the other side. Similarly, the second alternative terminal portion 4 is formed integrally with the second mounting end portion 12 with the second mounting end portion 12 positioned on the base end portion 41c side of the bifurcated portion 41, and sandwiches the base end portion 41c. Thus, the second mounting end portion 12 extends on one side, and the pair of extending portions 41a of the bifurcated portion 41 extends on the other side.

  In the fuse element terminal 1 of the present embodiment, the first mounting end portion 11, the first alternative terminal portion 3, the second mounting end portion 12, and the second alternative terminal portion 4 are substantially centered on the reference point on the fusing portion 13. It has a symmetrical shape. That is, in the fuse element terminal 1, one of the pair of extending portions 31 a of the first alternative terminal portion 3 and the first mounting end portion 11 are continuous via the base end portion 31 c, and the second alternative terminal portion 4. One of the pair of extending portions 41a and the second mounting end portion 12 are continuous via the base end portion 41c. The fuse element terminal 1 includes a pair of extending portions 41 a at the other side of the pair of extending portions 31 a at the base end portion 31 c of the first alternative terminal portion 3 and a base end portion 41 c of the second alternative terminal portion 4. Is connected to the other side via a fusing part 13.

  According to the fuse element terminal 1 described above, the first mounting end portion 11 mounted on the first wiring 204 constituting the circuit of the substrate 200 and the second wiring 205 mounted on the second wiring 205 constituting the circuit of the substrate. One of the mounting end portion 12, the fuse element portion 2 having the fusing portion 13 that electrically connects the first mounting end portion 11 and the second mounting end portion 12, and an alternative fuse 300 different from the fuse element portion 2 Terminal 302 b can be connected, and the first alternative terminal portion 3 formed integrally with the first mounting end portion 11 can be connected to the other terminal 302 c of the alternative fuse 300, and the second mounting end portion 12 can be connected to the second mounting end portion 12. And a second alternative terminal portion 4 formed integrally. According to the electrical connection box 100 described above, the fuse element terminal 1 and the casing 101 that houses the fuse element terminal 1 are provided.

  Therefore, in the fuse element terminal 1 and the electrical junction box 100, the fuse element part 2 having the fusing part 13 is connected to the first wiring 204 and the second wiring of the substrate 200 via the first mounting end part 11 and the second mounting end part 12. Since it is directly attached to 205, the number of components can be suppressed and the size can be reduced. In addition, the fuse element terminal 1 and the electrical junction box 100 are formed as a single unit with the first mounting end portion 11 even if the fusing portion 13 of the fuse element portion 2 is blown. Since the alternative fuse 300 different from the fuse element portion 2 can be connected across the second alternative terminal portion 4 formed integrally with the second mounting end portion 12, the board 200 can be used again. can do. In this case, the fuse element terminal 1 and the electrical connection box 100 are configured such that the first alternative terminal portion 3 and the second alternative terminal portion 4 are integrally formed with the first mounting end portion 11 and the second mounting end portion 12, respectively. Therefore, manufacturing efficiency can also be improved. As a result, the fuse element terminal 1 and the electrical junction box 100 can improve serviceability.

  Furthermore, according to the fuse element terminal 1 and the electrical junction box 100 described above, the first alternative terminal portion 3 and the second alternative terminal portion 4 are formed in a bifurcated shape, and the terminals 302b and 302c of the alternative fuse 300 are connected to each other. It has bifurcated portions 31 and 41 to support. Therefore, the fuse element terminal 1 and the electrical junction box 100 hold and support the terminals 302b and 302c of the alternative fuse 300 by the bifurcated portions 31 and 41 of the first alternative terminal portion 3 and the second alternative terminal portion 4, respectively. The replacement fuse 300 can be mounted by being electrically connected to the terminals 302b and 302c of the replacement fuse 300.

  The fuse element terminal and the electrical junction box according to the embodiment of the present invention described above are not limited to the embodiment described above, and various modifications can be made within the scope described in the claims.

  In the above description, the fuse element portion 2 has been described as the first mounting end portion 11, the second mounting end portion 12, and the fusing portion 13 being integrally formed of a conductive metal, but the present invention is not limited thereto. . In the fuse element portion 2, the fusing portion 13 is formed separately from the first mounting end portion 11 and the second mounting end portion 12, and the fusing portion 13 formed separately is connected to the first mounting end portion 11 and the first mounting end portion 11. 2 It may be provided so as to connect the mounting end 12.

  Further, in the above description, the fuse element portion 2 has the first mounting end portion 11 and the second mounting end portion 12 electrically connected to the first wiring 204 and the second wiring 205 via the solder 206 and the like. However, the present invention is not limited to this and may be fixed by means other than the solder 206.

  Moreover, although the 1st alternative terminal part 3 demonstrated above and the 2nd alternative terminal part 4 demonstrated as what is what is called a tuning fork terminal, it is not restricted to this.

  Moreover, the shape of the fusing part 13 demonstrated above is not restricted to said thing.

  FIG. 6 is a perspective view illustrating a schematic configuration of a fuse element terminal according to the first modification. FIG. 7 is a B1 arrow view (front view) shown in FIG. The fuse element terminal 1A according to the modified example 1 shown in FIGS. 6 and 7 is the fuse element terminal 1 in which the formation positions of the first mounting end 11 and the second mounting end 12 of the fuse element portion 2 and the shape of the fusing portion 13A are the same. Is different. In the fuse element terminal 1A, the first mounting end portion 11 and the second mounting end portion 12 extend from the center position of the base end portions 31c and 41c of the bifurcated portions 31 and 41 to the side opposite to the extending portions 31a and 41a, respectively. doing. In the fuse element terminal 1A, the fusing part 13A electrically connects the first mounting end part 11 and the second mounting end part 12 together with the first mounting end part 11 and the second mounting end formed in a rod shape. It extends along the direction in which the portion 12 extends and is formed to be bent in a substantially U shape when viewed from the front (see FIG. 7).

  FIG. 8 is a perspective view illustrating a schematic configuration of the fuse element terminal according to the second modification. 9 is a C1 arrow view (front view) shown in FIG. The fuse element terminal 1B according to the second modification shown in FIGS. 8 and 9 includes the first mounting end 11, the distance between the first alternative terminal 3 and the second mounting end 12, and the second alternative terminal 4 and fusing. The formation position of the part 13B and the shape of the fusing part 13B are different from those of the fuse element terminal 1. In the fuse element terminal 1 </ b> B, the intervals between the first mounting end 11, the first alternative terminal portion 3 and the second mounting end 12, and the second alternative terminal portion 4 are narrower than the intervals in the fuse element terminal 1. In the fuse element terminal 1B, the fusing part 13B is connected to the first mounting end part 11 via the center position of the base end part 31c of the first alternative terminal part 3 and the center position of the base end part 41c of the second alternative terminal part 4. The first mounting end 11 is electrically connected to the second mounting end 12 and extends along the extending direction of the first mounting end 11 and the second mounting end 12 formed in a rod shape, and is viewed from the front (see FIG. 9). And bent into a substantially U shape. Here, in the fusing part 13B, the distance between the first mounting end part 11, the first alternative terminal part 3 and the second mounting end part 12, and the second alternative terminal part 4 is relatively narrow, and FIG. The height along the extending direction is relatively lower than the fusing part 13A shown in FIG. Further, the fuse element terminal 1B is different from the above-described fuse element terminal 1A in the bending direction in the press bending process or the like.

  As described above, even in the fuse element terminals 1A and 1B according to the first and second modifications, the serviceability can be improved similarly to the fuse element terminal 1.

DESCRIPTION OF SYMBOLS 1, 1A, 1B Fuse element terminal 2 Fuse element part 3 1st alternative terminal part 4 2nd alternative terminal part 11 1st mounting end part 12 2nd mounting end part 13, 13A, 13B Fusing part 31, 41 Forked part 100 Electricity Junction box 101 Case 200 Substrate 204 First wiring 205 Second wiring 300 Alternative fuse (alternative fusing part)

Claims (3)

A first mounting end mounted on a first wiring constituting a circuit of the substrate; a second mounting end mounted on a second wiring configuring the circuit of the substrate; and the first mounting end and the first A fuse element portion having a fusing portion for electrically connecting two mounting end portions;
One terminal of an alternative fusing part different from the fuse element part can be connected, and a first alternative terminal part formed integrally with the first mounting end part;
The other terminal of the alternative fusing part can be connected, and includes a second alternative terminal part formed integrally with the second mounting end part ,
The fusing part extends between the first mounting end and the second mounting end and is orthogonal to the first mounting end and the second mounting end. The end portion is characterized by being meandered in a wavy shape in a plan view as viewed along the direction in which the second mounting end portion extends .
Fuse element terminal. The first alternative terminal portion and the second alternative terminal portion have a forked portion that is formed in a forked shape and supports a terminal of the alternative fusing part.
The fuse element terminal according to claim 1. A first mounting end mounted on a first wiring constituting a circuit of the substrate; a second mounting end mounted on a second wiring configuring the circuit of the substrate; and the first mounting end and the first 2. A fuse element part having a fusing part for electrically connecting the mounting end part and one terminal of an alternative fusing part different from the fuse element part can be connected and formed integrally with the first mounting end part Fuse element terminal comprising: a first alternative terminal portion that is connected to the other terminal of the alternative fusing component, and a second alternative terminal portion that is formed integrally with the second mounting end portion When,
A housing for housing the fuse element terminal ,
The fusing part extends between the first mounting end and the second mounting end and is orthogonal to the first mounting end and the second mounting end. The end portion is characterized by being meandered in a wavy shape in a plan view as viewed along the direction in which the second mounting end portion extends .
Electrical junction box.

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